In silico insights into potential gut microbial modulation of NAD+ metabolism and longevity

Salekeen, Rahagir; Siam, Md. Hasanul Banna; Sharif, Dilara Islam; Lustgarten, Michael S.; Billah, Morsaline; Islam, Kazi Mohammed Didarul

doi:10.1002/jbt.22925

Cited by 5 publications

(3 citation statements)

References 102 publications

(124 reference statements)

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“…Encouraged by these findings, we delved deeper into the potential advantages of PLA for organismal fitness and mitochondrial activity. Guided by the perspectives on the roles of energy metabolism, we explored phenylpyruvic acid, a metabolic precursor of PLA, which was predicted as an NAD + activator through in silico analysis 51 . The observed increase in longevity was found to be contingent on its conversion to PLA.…”

Section: Discussionmentioning

confidence: 99%

3-phenyllactic acid promotes healthspan through SKN-1/ATFS-1-mediated mitochondrial activation and stress resilience

Kim,

Jo,

Lim

et al. 2023

Preprint

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SummaryThe mechanisms underlying the impact of probiotic supplementation on health remain largely elusive. While previous studies have primarily focused on the discovery of novel bioactive bacteria and alterations in the microbiome environment to explain potential probiotic effects, our research delves into the role of living lactic acid bacteria (LAB) and their conditioned media, highlighting that only the former, not dead bacteria, enhance the healthspan ofCaenorhabditis elegans. To elucidate the underlying mechanisms, we conducted transcriptomic profiling through RNA-seq analysis inC. elegansexposed to LAB or 3-phenyllactic acid (PLA), mimicking the presence of key candidate metabolites of LAB and evaluating healthspan. Our findings reveal that PLA treatment significantly extends the healthspan ofC. elegansby promoting energy metabolism and stress resilience in a SKN-1/ATFS-1-dependent manner. Moreover, PLA-mediated longevity is associated with a novel age-related parameter, the Healthy Aging Index (HAI), introduced in this study, which comprises healthspan-related factors such as motility, oxygen consumption rate (OCR), and ATP levels. Extending the relevance of our work to humans, we observed an inverse correlation between blood PLA levels and physical performance in patients with sarcopenia, when compared to age-matched non-sarcopenic controls. Our investigation thus sheds light on the pivotal role of the metabolite PLA in probiotics-mediated enhancement of organismal healthspan, and also hints at its potential involvement in age-related sarcopenia. These findings warrant further investigation to delineate PLA’s role in mitigating age-related declines in healthspan and resilience to external stressors.HighlightsMetabolites Produced by Lactic Acid Bacteria Function as Mediators of Longevity inC. elegans3-Phenyllactic Acid (PLA) Augmented Lifespan Extension and Elevated the Healthy Aging Index (HAI)PLA Facilitated Healthy Aging by Inducing Mitochondrial Activation and Stress Resistance Dependent on SKN-1/ATFS-1Patients with Sarcopenia and Symptoms of Frailty Exhibited Reduced Blood PLA Levels.

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Section: Discussionmentioning

confidence: 99%

3-phenyllactic acid promotes healthspan through SKN-1/ATFS-1-mediated mitochondrial activation and stress resilience

Kim,

Jo,

Lim

et al. 2023

Preprint

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“…showed promising effects on the aging model ( Ni et al, 2019 ; Vaiserman et al, 2020 ). Compounds derived from microbes such as melleolide and microbial invertase may confer rejuvenating and positive effects on several types of aging cells ( Gupta et al, 2019 ; Salekeen et al, 2021 ). A recent experiment suggests that gut-microbes-associated compounds such as indole-3-propionic acid, dihydropteroate, phenyllactic acid, phenylpyruvic acid, all-trans-retinoic acid, and multiple deoxy-, methyl-, and cyclic nucleotides from gut microbiota are the considerable regulators of NAD+ metabolism and could be the indirect markers for aging-associated degeneration in humans ( Rabe et al, 2006 ; Chen et al, 2023 ).…”

Section: Lactiplantibacillus Plantarum Effect On Aging Hallm...mentioning

confidence: 99%

Microbial dysbiosis and the aging process: a review on the potential age-deceleration role of Lactiplantibacillus plantarum

Gupta,

El-Gawaad,

Mallasiy

et al. 2024

Front. Microbiol.

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Gut microbiota dysbiosis has been a serious risk factor for several gastric and systemic diseases. Recently, gut microbiota’s role in aging was discussed. Available preclinical evidence suggests that the probiotic bacteria Lactiplantibacillus plantarums (LP) may influence the aging process via modulation of the gut microbiota. The present review summarized compelling evidence of LP’s potential effect on aging hallmarks such as oxidative stress, inflammation, DNA methylation, and mitochondrial dysfunction. LP gavage modulates gut microbiota and improves overall endurance in aging animal models. LP cell constituents exert considerable antioxidant potential which may reduce ROS levels directly. In addition, restored gut microbiota facilitate a healthy intestinal milieu and accelerate multi-channel communication via signaling factors such as SCFA and GABA. Signaling factors further activate specific transcription factor Nrf2 in order to reduce oxidative damage. Nrf2 regulates cellular defense systems involving anti-inflammatory cytokines, MMPs, and protective enzymes against MAPKs. We concluded that LP supplementation may be an effective approach to managing aging and associated health risks.

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“…For instance, MD has recently predicted the inhibition of gut bacterial β-glucuronidases by the biflavanoid, amentoflavone; these findings could aid the prevention of microbiome-led drug metabolism, as many drugs are known to be biotransformed by bacterial β-glucuronidases [255]. Elsewhere, molecular modelling (including MD) has discovered the influence of microbial metabolites on longevity-associated metabolic pathways; this could lead to the identification of novel therapies to support healthy ageing through the gut [256]. From a drug development perspective, MD has many potential applications for formulation design.…”

Section: In Silico Prediction For Colonic Drug Deliverymentioning

confidence: 99%

Colonic drug delivery: Formulating the next generation of colon-targeted therapeutics

McCoubrey

Favaron

Awad

et al. 2023

Journal of Controlled Release

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In silico insights into potential gut microbial modulation of NAD+ metabolism and longevity

Cited by 5 publications

References 102 publications

3-phenyllactic acid promotes healthspan through SKN-1/ATFS-1-mediated mitochondrial activation and stress resilience

3-phenyllactic acid promotes healthspan through SKN-1/ATFS-1-mediated mitochondrial activation and stress resilience

Microbial dysbiosis and the aging process: a review on the potential age-deceleration role of Lactiplantibacillus plantarum

Colonic drug delivery: Formulating the next generation of colon-targeted therapeutics

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